Method and system for providing multiple services per trigger

ABSTRACT

The present invention allows a single trigger, such as a Termination Attempt Trigger, to invoke multiple feature service logic programs (feature SLPs) through the use of a Feature Interaction Manager service logic program (FIM-SLP) installed at a service control point (SCP). A database, accessible by the service control point, contains subscriber information such as the type of services subscribed and the order in which the services are to be invoked. The Feature Interaction Manager service logic program invokes individual feature SLPs based on the information contained in the database that specify how the feature SLPs will interact. In one embodiment, the present invention allows multiple services to be deployed within a common service control point. In a different embodiment, the Feature Interaction Manager service logic program located in a first service control point can also invoke features SLPs that are located in other service control points. The Feature Interaction Manager SLP and the feature SLPs can reside on the same SCP. Alternatively, the Feature Interaction Manager SLP and feature SLPs can reside on multiple SCPs. In the case of multiple SCPs, the Feature Interaction Manager SLP can reside by itself or can be co-located with one or more feature SLPs.

This application claims priority from U.S. Provisional PatentApplication Ser. No. 60/129,116 filed Apr. 14, 1999.

BACKGROUND

1. Field of the Invention

The present invention relates generally to telecommunication systems andmore particularly relates to a method and system for providing multipleservices per trigger to a subscriber.

2. Background of the Invention

In the telecommunication industry today, many advanced services areavailable to telephone line subscribers in which a customer can set upher telephone line in such a way that a number of tasks could beperformed by the telephone system before ringing the subscriber'stelephone. For example, in an advanced intelligent network (AIN)structure, the Flexible Call Forwarding service allows a Flexible CallForwarding subscriber to receive all calls made to her home telephonenumber at any location she so designates. AIN structures are describedin U.S. Pat. No. 5,701,301, which is hereby incorporated by reference.The Flexible Call Forwarding service can be provided through the use ofa Termination Attempt Trigger (TAT) and the Flexible Call ForwardingService Logic Program (SLP). The Flexible Call Forwarding service is oneexample of several services that are implemented using feature SLPs.Feature SLPs are software subsystems implemented in, e.g., a ServiceControl Point, that are used to provide specific services tosubscribers. The TAT is located at the service switching point (SSP) towhich the Flexible Call Forwarding subscriber's telephone line isphysically connected. The Flexible Call Forwarding SLP helps the SCPprocess queries originating from the TATs of Flexible Call Forwardingsubscribers. For example, when a Flexible Call Forwarding subscriber'stelephone number is dialed by a caller, prior to ringing the FlexibleCall Forwarding subscriber's telephone, the TAT sends an AIN query tothe SCP. The AIN query contains a specific Translation Type that isunique for all TATs serving Flexible Call Forwarding subscribers. In apreferred embodiment, this AIN query goes through a signal transferpoint (STP) where the Translation Type prompts the STP to add asubsystem number specific to the Flexible Call Forwarding SLP to thequery. Thus each subsystem number is unique to a specific subsystem ofthe SCP. The Flexible Call Forwarding SLP then goes through appropriatesteps to process that call. If the Flexible Call Forwarding service hasbeen activated by the Flexible Call Forwarding subscriber, the call isrouted to the predetermined destination as designated by the FlexibleCall Forwarding subscriber. Otherwise, the Flexible Call Forwarding SLPprompts the SCP to send an instruction authorizing the SSP to put thecall through to the default location.

Similarly, when an Internet Call Waiting subscriber's telephone numberis dialed, the Internet Call Waiting subscriber's SSP sends a query tothe SCP asking for instructions before allowing the call to go through.The SCP, through the Translation Type and the subsystem number that arespecific to the Internet Call Waiting subscriber's TAT and the InternetCall Waiting SLP, respectively, consults the Internet Call Waiting SLPto determine whether the Internet Call Waiting subscriber had activatedthe Internet Call Waiting service. If the Internet Call Waiting servicehas been activated by the Internet Call Waiting subscriber, the SCPsends an authorization to the SSP to put the call through, and thesubscriber is alerted that there is an incoming call waiting while sheis connected to the Internet. Otherwise, the Internet Call Waiting SLPwould cause the SCP to send a different instruction directing the SSP toinform the caller that the Internet Call Waiting subscriber's telephoneline is busy or is otherwise unavailable.

One major limitation of the current AIN structure is that each TAT canonly invoke one feature SLP. In other words, a Flexible Call Forwardingsubscriber may not simultaneously subscribe to other services such asInternet Call Waiting, Privacy Director, and Messaging. This givestelephone line subscribers limited choices, despite the variety ofservices available to them. For example, under the current AINstructure, an Internet Call Waiting subscriber who wants to subscribe toone of the other services offered at the same AIN trigger must give upthe Internet Call Waiting service.

SUMMARY OF THE INVENTION

The present invention makes it possible for a customer to subscribe tomultiple services simultaneously using a single trigger, such as aTermination Attempt Trigger (TAT), that is connected to her telephoneline. In a preferred embodiment, the present invention makes it possiblefor a single TAT to invoke multiple feature Service Logic Programs(feature SLPs) in an order determined by the Multiple Services perTrigger subscriber. The present invention provides telephone linesubscribers with greater flexibility for handling incoming calls throughvarious services, including without limitation, Flexible CallForwarding, Internet Call Waiting, and Privacy Director and Messaging.

The setup procedures for the present invention are straightforward. In apreferred embodiment, a Multiple Services per Trigger subscriber callsthe business office of the telephone company to designate the type ofservices she wishes to have, and the order in which the services are tobe invoked. Then, a TAT is installed at the service switching point(SSP) that is physically connected to the subscriber's telephone line. Aunique Translation Type specific to Multiple Services per Triggersubscribers, e.g., “220,” is then assigned to the subscriber's TAT. Thebusiness office then updates a database that is accessible by a servicecontrol point (SCP) with the Multiple Services per Trigger subscriptioninformation. Following this setup, the subscriber can subsequentlyupdate the database to activate or deactivate the various services asoften as she wants to.

In a preferred embodiment, various feature SLPs are present at the SCPto which all queries from SSPs are directed. The feature SLPs processincoming queries and prompt the SCP to send appropriate instructions tothe SSPs from which the queries had originated. Each feature SLPperforms a specific task. For example, a Flexible Call Forwarding SLPprocesses the incoming calls of Flexible Call Forwarding subscribers, anInternet Call Waiting SLP processes Internet Call Waiting subscribers'incoming calls, and a Privacy Director SLP processes Privacy Directorsubscribers' incoming calls.

The present invention is implemented by installing a Feature InteractionManager SLP on an SCP in the network. The Feature Interaction ManagerSLP manages all feature SLPs, whether the feature SLPs are locatedwithin the same SCP on which the Feature Interaction Manager SLPresides, or on other SCPs. The Feature Interaction Manager SLP hasaccess to a database that contains subscriber information that listswhich customers subscribe to which AIN service or services. The databasealso defines how multiple services subscribed by a single subscriber areto be invoked and the location of the SLP in the network.

For example, when a query comes from the TAT of a Multiple Services perTrigger subscriber, the unique “220” Translation Type assigned to thatTAT would cause the signal transfer point (STP) to supply thecorresponding subsystem number (SSN) of the Feature Interaction ManagerSLP to the query. Each subsystem number is unique to a specific SLP. Forexample, the Flexible Call Forwarding SLP, Internet Call Waiting SLP,and Privacy Director SLP might have subsystem numbers of “1,” “2,” and“3,” respectively. The Feature Interaction Manager SLP also has its ownsubsystem number. In this example, the Feature Interaction Manager'ssubsystem number could be “4.” When the STP receives the query from theSSP with Translation Type of “220,” the STP supplies subsystem number of“4” to the query and forwards the query to the SCP. When the SCPreceives the query with the subsystem number “4,” it routes the query tothe Feature Interaction Manager SLP. The Feature Interaction Manager SLPthen consults the database to find out which services the MultipleServices per Trigger subscriber had contracted for, and the serviceinteraction rules that prescribe the order in which the subscribedservices are to be invoked.

For example, if Subscriber A has ordered both Internet Call Waiting andFlexible Call Forwarding services (in that order), and Subscriber A hadalso activated both services, a query from her TAT would cause theFeature Interaction Manager SLP to invoke the Internet Call Waiting SLPfirst. The Internet Call Waiting SLP would then prompt the SCP to alertSubscriber A that a call is waiting if she is connected to the Internet.If Subscriber A is not on line or is otherwise unavailable at hertelephone, the Feature Interaction Manager SLP would then invoke thenext feature SLP, namely, the Flexible Call Forwarding SLP. Then, theFlexible Call Forwarding SLP would process the query by instructing theSSP to route the call to the forwarding telephone number designated bySubscriber A.

In a different example in which Subscriber B has a subscription toFlexible Call Forwarding and Internet Call Waiting services (in thatorder), the procedures would be reversed. In other words, all incomingcalls of Subscriber B would be forwarded to the predetermined forwardingtelephone number. The Internet Call Waiting SLP would be invoked only ifSubscriber B had deactivated the Flexible Call Forwarding service andupdated the database accordingly.

Accordingly, it is an object of the present invention to allow telephoneline subscribers greater flexibility in managing incoming calls.

It is another object of the present invention to allow a single triggerto support multiple services.

It is a further object of the present invention to provide a telephonenetwork in which additional services can be readily provided to atelephone network's subscribers.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1a is a schematic diagram illustrating an advanced intelligentnetwork embodying a preferred embodiment of the Feature InteractionManager (“FIM”) of the present invention.

FIG. 1b is a flowchart illustrating the steps by which a query isforwarded to the Feature Interaction Manager according to a preferredembodiment of the present invention.

FIG. 2a is a schematic diagram illustrating a service control point(SCP) embodying a preferred embodiment of the Feature InteractionManager of the present invention.

FIG. 2b is a flowchart illustrating the steps by which the FeatureInteraction Manager processes a query according to a preferredembodiment of the present invention.

FIG. 3a is a schematic diagram illustrating a specific example of themanner in which the Feature Interaction Manager processes a queryaccording to a preferred embodiment of the present invention.

FIG. 3b is a flowchart illustrating a specific example of the steps bywhich the Feature Interaction Manager processes a query according to apreferred embodiment of the present invention.

FIG. 4 is a schematic diagram illustrating a Feature Interaction Managerwhich manages feature service logic programs (SLPs) located in differentservice control points.

FIG. 5 is a flowchart illustrating the logic of a Feature InteractionManager service logic program of the present invention.

FIG. 6 is a schematic diagram illustrating another preferred embodimentof the present invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention includes a Feature Interaction Manager Servicelogic program that manages individual feature service logic programs(feature SLPs) such as the Flexible Call Forwarding SLP, the InternetCall Waiting SLP, the Privacy Director SLP, the Advanced IntelligentMessaging SLP, and the Simultaneous Ringing SLP. The Feature InteractionManager SLP determines the order in which multiple feature SLPs are tobe invoked based on service interaction rules. The Feature InteractionManager SLP invokes the first feature SLP and waits for a response. TheFeature Interaction Manager SLP then evaluates the response from thefeature SLP, and, based on the rules for how the feature SLPs interact,determines if the next feature SLP should be invoked or if the responseshould be sent to the SSP. This process continues as long as additionalfeature SLPs can be invoked.

When the Feature Interaction Manager SLP receives the appropriateresponse from an activated feature SLP, or when no feature SLP has beenactivated, the Feature Interaction Manager SLP prompts the servicecontrol point (SCP) to instruct the service switching point (SSP) fromwhich the query had originated to process the call accordingly.

FIG. 1a is a schematic diagram illustrating an advanced intelligentnetwork embodying a preferred embodiment of the Feature InteractionManager (“FIM”) of the present invention. As shown in FIG. 1a, asubscriber of the present invention has a telephone line 10 that isconnected to an SSP11. Subscribers who use the present invention shallbe referred to herein as Multiple Services per Trigger subscribers(“MS/T Subscriber”). In a preferred embodiment, the subscriber'stelephone line 10 is provisioned with a trigger, such as TerminationAttempt Trigger (TAT) 15. The trigger is provisioned with a uniqueTranslation Type that is specific for Multiple Services per Triggersubscribers. SSP 11, in turn, is connected to a signal transfer point(STP) 12 via the SS7 signaling system of the advanced intelligentnetwork (AIN). Any query originating from the Multiple Services perTrigger subscriber's TAT 15 and sent through SSP 11 to STP 12 carriesthe specific Translation Type as well as the originating point code ofSSP 11. When STP 12 receives the query, STP 12 supplies a correspondingsubsystem number that is specific to the Feature Interaction Manager SLP(FIM-SLP) 14. In other words, a query from a non-MS/T subscribercarrying a different Translation Type does not receive the subsystemnumber of the Feature Interaction Manager SLP, but may receive thesubsystem number that invokes a specific feature SLP. Thus, when thequery from SSP 11 reaches SCP 13, the query is immediately routed toFeature Interaction Manager SLP 14.

FIG. 1b is a flowchart illustrating the steps by which a query isforwarded to the Feature Interaction Manager according to a preferredembodiment of the present invention. In this specific example, a callerdials the telephone number of the Multiple Services per Trigger (MS/T)subscriber in step 101. Then in step 102, TAT 15 is triggered by thecall. Instead of routing the call through immediately, the call issuspended. TAT 15 then prompts SSP 11, in step 103, to send a query toSCP 13 via STP 12. The query contains a Translation Type of “220” thathas been assigned to TAT 15. In step 104, STP 12 recognizes theTranslation Type of “220” as one that has been originated by a TAT thatis assigned to a Multiple Services per Trigger subscriber. Therefore,STP 12 supplies the subsystem number “4” to the query. When SCP 13receives the query in step 105, it recognizes the subsystem number “4”to be the subsystem number of Feature Interaction Manager SLP 14. As aresult, in step 106, SCP 13 routes the query to Feature InteractionManager SLP (FIM-SLP) 14 for processing. Finally, in step 107, FeatureInteraction Manager SLP 14 processes the call according to the MultipleServices per Trigger subscriber's instructions, i.e., FeatureInteraction Manager SLP 14 invokes feature SLPs in the specific orderdesignated by the Multiple Services per Trigger subscriber.

FIG. 2a is a schematic diagram illustrating a service control point(SCP) embodying a preferred embodiment of the Feature InteractionManager of the present invention. In this embodiment, SCP 13 contains aFeature Interaction Manager SLP 14, a first feature SLP 15, a secondfeature SLP 16, and a third feature SLP 17. In this preferredembodiment, when SCP 13 receives a query from a Multiple Services perTrigger subscriber, the query is forwarded to Feature InteractionManager SLP 14 because of the subsystem number contained in the query.Feature Interaction Manager SLP 14 then consults Database 18 thatcontains, among other information, a table showing different sets ofvalid service combinations. For example, a telephone company that offersthree services such as Flexible Call Forwarding (FCF), Internet CallWaiting (ICW), and Privacy Director (PD), could have up to 15 servicegroups as shown in Table A below.

TABLE A Possible Service Combinations of FCF, ICW, and PD Service GroupNumber Order of Service Execution 001 FCF 002 ICW 003 PD 004 FCF, ICW005 ICW, FCF 006 FCF, PD 007 PD, FCF 008 ICW, PD 009 PD, ICW 010 FCF,ICW, PD 011 FCF, PD, ICW 012 ICW, FCF, PD 013 ICW, PD,FCF 014 PD, FCF,ICW 015 PD, ICW, FCF

As a practical matter, however, one skilled in the art would recognizethat not all the service groups shown in Table A are necessarilycommercially practicable.

In addition to Table A, Database 18 might also contain a second tableassociating specific subscribers to their subscribed sets of validservice combinations, such as the examples of relationships shown inTable B below.

TABLE B Customer Group Subscription Table Customer Telephone NumberService Group 404-332-2166 004 404-332-2189 006 404-332-7239 001404-332-1234 007 404-332-2310 013 404-332-2361 005 404-332-3222 010

Database 18 might also contain a third table identifying the location ofeach feature SLP by point code and subsystem number, such as shown inTable C below.

TABLE C Location of Feature SLP Table Feature SLP Point Code SubsystemNumber FCF 252001230 1 ICW 252001230 2 PD 252002260 3

FIG. 2b is a flowchart illustrating the steps by which the FeatureInteraction Manager processes a query according to a preferredembodiment of the present invention. In step 201, SCP 13 receives aquery containing a subsystem number. In step 202, the SCP determineswhether the subsystem number contained in the query matches that ofFeature Interaction Manager SLP 14. If it does not, SCP 13, in step 203,routes the query to an appropriate feature SLP with the same subsystemnumber that is in the query, and the appropriate feature SLP wouldprocess the call in step 204.

If the subsystem number contained in the query is the subsystem numberof Feature Interaction Manager SLP 14, SCP 13 channels the query toFeature Interaction Manager SLP 14. In step 205, Feature InteractionManager SLP 14 consults Database 18. From a table such as Table B above,Feature Interaction Manager SLP 14 determines the specific feature SLPsto which the Multiple Services per Trigger subscriber has subscribed.Furthermore, from a table such as that shown in Table A, FeatureInteraction Manager SLP 14 determines the order in which the featureSLPs are to be invoked. As a result, in step 206, Feature InteractionManager SLP 14 routes the query to the appropriate feature SLP based onthe information in Table C in Database 18.

In step 207, if that feature SLP has not been activated, the processreturns to Feature Interaction Manager SLP 14 in step 208 to consultDatabase 18 for the next feature SLP. The process in the loop of steps205, 206, 207, 208, and 209 continues until an activated feature SLP isfound or all feature SLPs in the service group have been consulted andno activated service is found. Once the end of the list is encounteredin step 209, the process stops in step 210 where Feature InteractionManager SLP 14 authorizes SSP 11 to terminate the call.

If in step 207 the feature SLP has been activated, it processes thequery in step 211 and sends a response to the Feature InteractionManager SLP 14. In step 212, Feature Interaction Manager SLP 14 consultsDatabase 18 for the rules defining how the feature SLPs interact (i.e.,the service interaction rules) to determine what response should be sentto SSP 11. In step 213, SSP 11 executes the instruction received fromSCP 13

For each combination or permutation shown in Table A, serviceinteraction rules on how the services would interact must be defined andbe available to the Feature Interaction SLP. For example, the serviceinteraction rules for Service Group 004 might be as follows:

State After Execution Next Action (1) Forward-call Forward_Call (2)Allow-call Execute Internet Call Waiting SLP State After Execution NextAction (a) Accept-call Authorize_ Termination (b) Reject-call Disconnect(c) Timeout, Default Authorize_ Termination (3) Block-callSend_to_Resource (4) Timeout, Default Authorize_Termination

Based the specific example above, a subscription to Service Group 004might result in four mutually exclusive alternative call processingroutes. First, if the subscriber had activated the Flexible CallForwarding service, the call will be forwarded as shown in Alternative(1). Second, if the call forwarding service had not been activated, butthe Internet Call Waiting service had been activated such as shown inAlternative (2), then the subscriber can exercise one of three options:(a) accept the call; (b) reject the call; and (c) ignore the call.Third, the Flexible Call Forwarding service may provide that allincoming calls be blocked if the subscriber has selected such an option.Finally, the service interaction rules might also include a defaultfeature where after a certain time has elapsed, the call isautomatically terminated.

The example shown above is only illustrative and is not an exhaustivelist of the rules required for either the Flexible Call Forwardingservice or the Internet Call Waiting service. For each feature SLP, thestate after the feature SLP is executed must be identified with acorresponding next action. In some cases, the state after a feature SLPis executed will have a next action that responds to the SSP. In somecases, the next action will be to invoke the next feature SLP in thesequence.

FIG. 3a is a schematic diagram illustrating a specific example of themanner in which the Feature Interaction Manager processes a queryaccording to a preferred embodiment of the present invention. FIG. 3b isa flowchart illustrating a specific example of the steps by which theFeature Interaction Manager processes a query according to a preferredembodiment of the present invention.

In this example, a caller has dialed “404-332-2166,” the telephonenumber of a Multiple Services per Trigger subscriber. As describedabove, a query from the Multiple Services per Trigger subscriber's TAT15 and SSP 11 prompts STP 12 to supply the subsystem number of “4” toSCP 13, such as that shown in step 301 (see FIG. 3b). In step 302, whenFeature Interaction Manager SLP 14 (FIM-SLP 14) receives the query, itconsults Database 18 that contains, among other information, Tables A,B, and C described above, and service interaction rules for each Servicegroup listed in Table A. From Table B, telephone number “404-332-2166”is associated with Service Group 004. From Table A, Service Group 004provides that the Multiple Services per Trigger subscriber wants to havethe Flexible Call Forwarding service invoked before the Internet CallWaiting service. As a result, in step 303, Database 18 tells FeatureInteraction Manager SLP 14 to invoke Flexible Call Forwarding SLP 15(FCF-SLP 15) first. The location of Flexible Call Forwarding SLP 15 canbe obtained from Table C. In step 304, Feature Interaction Manager SLP14 forwards the query to Flexible Call Forwarding SLP 15. In step 304 a,if the Multiple Services per Trigger subscriber has activated theFlexible Call Forwarding service, Flexible Call Forwarding SLP 15forwards a response to Feature Interaction Manager SLP 14 in step 305 a.SCP 13 then instructs SSP 11, in step 305 b, to forward the call per theresponse from Feature Interaction Manager SLP 14 to a forwardingtelephone number that the Multiple Services per Trigger subscribersupplied when the subscriber activated the Flexible Call Forwardingservice. Otherwise, the response is routed to Feature InteractionManager SLP 14 for further processing in step 305 c.

In step 306, Feature Interaction Manager SLP 14 consults Database 18 forthe second time. Based on Table A, Database 18 tells Feature InteractionManager SLP 14, in step 307, that Internet Call Waiting SLP 16 (ICW-SLP16) is to be invoked next. In step 308, Feature Interaction Manager SLP14 forwards the query to Internet Call Waiting SLP 16 and the InternetCall Waiting service is executed. In step 308 a, if the Internet CallWaiting service has been activated, Internet Call Waiting SLP 16 sends aresponse to Feature Interaction Manager SLP 14 in step 309 a toauthorize SSP 11 to terminate the call. As a result, SCP 13 instructsSSP 11 in step 309 b to alert the Multiple Services per Triggersubscriber that a call is waiting if the subscriber is engaged in acommunication session with her Internet service provider. However, ifthe Internet Call Waiting service has not been activated, the responseis returned to Feature Interaction Manager SLP 14 in step 309 c. FeatureInteraction Manager SLP 14 then consults Database 18 for the third timein step 310. Since Service Group 004 contains only two feature SLPs bothof which have been invoked, Database 18 informs Feature InteractionManager SLP 14 in step 311 that the end of the list has been reached.Based on the service interaction rules, Feature Interaction Manager SLP14 responds to SSP 11 to authorize call termination and forwards thatinstruction to SSP 11 in step 312.

The interactions between Feature Interaction Manager SLP 14 and allfeature SLPs are made possible through an SCP platform. In a preferredembodiment, an SCP platform capability that supports AIN inter-SLPcommunications may be used. In such an embodiment, the AIN messagesdefined in Bellcore generic requirements (e.g., GR-1299-CORE) forcommunicating between the SSP and SCP will also be used for inter-SLPcommunication between the Feature Interaction Manager SLP and featureSLPs.

In a further embodiment illustrated in FIG. 4, a Feature InteractionManager SLP can also manage feature SLPs located in different SCPs. Asshown in the example of FIG. 4, Feature Interaction Manager SLP(FIM-SLP) 44, Flexible Call Forwarding (FCF) SLP 45, Internet CallWaiting (ICW) SLP 46, and Database 48 are located with SCP 43. PrivacyDirector SLP 47, however, is located within SCP 23. In this example, aquery from the SSP of a customer subscribing to Service Group 003(Privacy Director service only) is processed as follows.

Feature Interaction Manager SLP 44 consults Database 48 after it isinvoked. Database 48 then informs Feature Interaction Manager SLP 44that the feature SLP to be invoked, Privacy Director-SLP 17, is locatedin SCP 23. As a result, Feature Interaction Manager SLP 14 channels thequery out of SCP 43, and routes the query via SS7 network to SCP 23 onwhich Privacy Director SLP 47 is located. After processing the call,Privacy Director SLP 47 returns the results to Feature InteractionManager SLP 44. Finally, an instruction is given to the SSP from whichthe query had originated.

As illustrated in this example shown in FIG. 4, the present invention iscapable of managing multiple feature SLPs located in different SCPs. Inaddition, the present invention is also capable of managing a singlefeature SLP. This capability allows the telephone company to add newservices to a subscriber's line as they are ordered by the subscriber.To add new services to a subscriber's line, the telephone company justhas to change the Translation Type of the TAT at the SSP if theTranslation Type does not already specify the Translation Typecorresponding to a Multiple Services per Trigger subscriber, and updateDatabase 48 accordingly.

FIG. 5 is a flowchart illustrating the logic of a preferred embodimentof a Feature Interaction Manager SLP of the present invention. Asdescribed above, the Feature Interaction Manager SLP is located withinan SCP of an AIN structure. In step 501, the Feature Interaction ManagerSLP receives a query from an SSP. In step 502, the Feature InteractionManager SLP consults a database containing, among other information, atable similar to Table B discussed above, to find out which servicegroup the subscriber belongs to. In step 503, if such inquiry isunsuccessful, e.g., the database is down, the Feature InteractionManager SLP, in step 504, sends a default response to the SSP from whichthe query had originated. The default response could be, for example, aninstruction containing an authorization for the SSP to terminate thecall.

On the other hand, if the Feature Interaction Manager SLP is able todetermine the service group to which the subscriber belongs, the FeatureInteraction Manager SLP proceeds to step 506 to retrieve serviceinteraction rules that are unique to the service group. In step 507, ifthe retrieval of service interaction rules is unsuccessful, the FeatureInteraction Manager SLP, in step 508, sends the default response to theSSP. If the retrieval of service interaction rules is successful, theFeature Interaction Manager SLP, in step 510, invokes the first featureSLP specified in the service interaction rules. In step 511, the FeatureInteraction Manager SLP sets a timer for the feature SLP to respond. Oneof ordinary skill in the art would understand that the time limitspecified in step 511 must be shorter than the time limit set by the SSPfor a response from the SCP. In step 512, if the timer expires beforethe invoked feature SLP responds, the Feature Interaction Manager SLPproceeds to step 513 to execute an appropriate timeout action or togenerate an error message in step 514.

Otherwise, in step 515, the Feature Interaction Manager SLP receives aresponse from the first feature SLP, and it evaluates the response instep 516. If the response from the feature SLP is invalid or isotherwise not executable, the Feature Interaction Manager SLP sends thedefault response to the SSP in step 517. If the response from thefeature SLP is valid (i.e., a response of the type that the FeatureInteraction Manager SLP is expecting based on service interaction rules,such as forward the call or authorize termination), the FeatureInteraction Manager SLP makes a further determination in step 519whether to respond to the SSP. In step 519, the Feature InteractionManager SLP evaluates the response based on the service interactionrules to determine if another SLP should be executed before a finalresponse is sent to the service switching point. For example, if theFlexible Call Forwarding SLP responds with Allow_Call, Service Group 004rules require that the Internet Call Waiting SLP be invoked before aresponse is sent to the service switching point. In that case, theprocess returns to step 510 to invoke the Internet Call Waiting SLP. Onthe other hand, if the response in step 519, in the case of ServiceGroup 004, is “Forward-call” or “Block-call,” the Feature InteractionManager SLP proceeds to step 520 to send an appropriate instruction tothe SSP.

FIG. 6 is a schematic diagram showing another preferred embodiment ofthe present invention having multiple SCPs. As shown on FIG. 6, FeatureInteraction Manager SLP (FIM-SLP) 71 resides on SCP 61 while feature SLP72, feature SLP 73, feature SLP 74, and feature SLP 75 reside on otherSCPs. As demonstrated, the present invention allows the FeatureInteraction Manager SLP to reside on an SCP by itself, or on an SCP withone or more feature SLPs as shown in FIGS. 2a and 3 a.

The specific types of AIN services identified above, namely FlexibleCall Forwarding, Internet Call Waiting, Privacy Director, AdvancedIntelligent Messaging, and Simultaneous Ringing, are provided asspecific examples of services that the present invention can manage andis not intended to be an exhaustive list of types of such features. Whenused in this patent specification these terms are not intended to referto any particular feature or service but rather to any feature orservice generally of the type described below:

Flexible Call Forwarding service: upon receiving an incoming calldirected to a first telephone number, forwarding the call to a secondtelephone number predetermined by the subscriber;

Internet Call Waiting: upon receiving an incoming call while thetelephone line is connected to an Internet service provider, alertingthe subscriber (called party) that an incoming call is waiting;

Privacy Director: screening all incoming calls and blocking callsoriginated by callers who do not supply their identities;

Advanced Intelligent Messaging: providing the calling party with avariety of options to leave messages for the subscriber; and

Simultaneous Ringing: upon receiving an incoming call intended for afirst telephone number; generating multiple calls to a list ofpredetermined telephone numbers.

The foregoing disclosure of embodiments of the present invention andspecific examples illustrating the present invention have been presentedfor purposes of illustration and description. It is not intended to beexhaustive or to limit the invention to the precise forms disclosed.Many variations and modifications of the embodiments described hereinwill be obvious to one of ordinary skill in the art in light of theabove disclosure. The scope of the invention is to be defined only bythe claims appended hereto, and their equivalents.

What we claimed is:
 1. An advanced intelligent network telecommunicationsystem comprising: (a) at least one service switching point; (b) aservice control point in communication with the at least one serviceswitching point; (c) a trigger with a translation type provisioned on asubscriber's telephone line at the service switching point; (d) a firstfeature service logic program on the service control point; (e) a secondfeature service logic program on the service control point; (f) afeature interaction manager service logic program, located on theservice control point; and (g) a database accessible to the servicecontrol point, wherein the database contains service interaction rulesfor providing multiple services per trigger to the subscriber, whereinthe service interaction rules specifies an order in which the firstfeature service logic program and the second feature service program areto be invoked by the feature interaction manager service logic program,wherein the order is predetermined by the subscriber, wherein when saidtrigger prompts said at least one service switching point to send aquery containing said translation type to the service control point,said feature interaction manager service logic program is invoked and inturn subsequently invokes at least one of said first feature servicelogic program and said second feature service logic program, accordingto said service interaction rules in the database.
 2. The advancedintelligent network telecommunication system of claim 1, furthercomprising a signal transfer point located between the service switchingpoint and the service control point, wherein the signal transfer pointhas the capability of supplementing a query from the service switchingpoint with a subsystem number identifying said feature interactionmanager service logic program.
 3. The advanced intelligent networktelecommunication system of claim 1, wherein said trigger is atermination attempt trigger.
 4. The advanced intelligent networktelecommunication system of claim 1, further comprising a second servicecontrol point, wherein at least one additional feature service logicprogram is installed on said second service control point.
 5. Theadvanced intelligent network telecommunication system of claim 1,wherein the first and the second feature service logic programs are twoservices selected from the group consisting of flexible call forwarding,Internet call waiting, privacy director, advanced intelligent messaging,and simultaneous ringing.
 6. The advanced intelligent networktelecommunication system of claim 4, wherein said feature interactionmanager service logic program invokes said at least one additionalfeature service logic program via SS7 network according to said rules inthe database.
 7. The advanced intelligent network telecommunicationsystem of claim 6, wherein the first, the second, and said at least oneadditional feature service logic programs are selected from the groupconsisting of flexible call forwarding, Internet call waiting, privacydirector, advanced intelligent messaging, and simultaneous ringing.
 8. Amethod for providing multiple services per trigger to a telephone linesubscriber of an advanced intelligent network telecommunication systemhaving a telephone line, a service switching point, a service controlpoint, and a database, comprising the steps of: (a) provisioning atrigger with a translation type on the subscriber's telephone line atthe service switching point; (b) providing a first feature service logicprogram on the service control point; (c) providing a second featureservice logic program on the service control point; (d) providing afeature interaction manager service logic program on the service controlpoint; and (e) specifying in the database service interaction rules ofpriority for invoking at least one of the first feature service logicprogram and the second feature service logic program, wherein theservice interaction rules specifies an order in which the first featureservice logic program and the second feature service program are to beinvoked by the feature interaction manager service logic program,wherein the order is predetermined by the subscriber, wherein when saidtrigger prompts said service switching point to send a query to theservice control point, the feature interaction manager service logicprogram is invoked such that it subsequently invokes at least one of thefirst feature service logic program and the second feature service logicprogram as specified in the service interaction rules.
 9. The method ofclaim 8, further comprising a signal transfer point located between theservice switching point and the service control point, wherein thesignal transfer point supplements the query from the service switchingpoint with a subsystem number identifying said feature interactionmanager service logic program.
 10. The method of claim 8, wherein saidtrigger is a termination attempt trigger.
 11. The method of claim 8,wherein said advanced intelligent network has a second service controlpoint, the method further comprising the step of providing at least oneadditional feature service logic program on said second service controlpoint.
 12. The method of claim 8, wherein the first and the secondfeature service logic programs are two services selected from the groupconsisting of flexible call forwarding, Internet call waiting, privacydirector, advanced intelligent messaging, and simultaneous ringing. 13.The method of claim 11, wherein said feature interaction manager servicelogic program invokes said at least one additional feature service logicprogram via SS7 network according to said rules in the database.
 14. Themethod of claim 13, wherein the first, the second, and said at least oneadditional feature service logic programs are selected from the groupconsisting of flexible call forwarding, Internet call waiting, privacydirector, advanced intelligent messaging, and simultaneous ringing. 15.The method of claim 13, wherein the feature interaction manager servicelogic program is invoked such that it subsequently invokes at least oneof the first and the second feature service logic programs on the firstservice control point and said at least one additional feature servicelogic program on said second service control point as specified in theservice interaction rules.
 16. A service control point for providingmultiple services per trigger to a telephone line subscriber of anadvanced intelligent network telecommunication system having a telephoneline, a service switching point, and a trigger with a specifictranslation type on the subscriber's telephone line at the serviceswitching point, said service control point comprising: (a) a pluralityof feature service logic programs each of which has a unique subsystemnumber; (b) a feature interaction manager service logic program havingits own unique subsystem number; and (c) a database comprising serviceinteraction rules for invoking one or more of said plurality of featureservice logic programs, wherein the service interaction rules specifiesan order in which the plurality of feature service logic programs are tobe invoked by the feature interaction manager service logic program,wherein the order is predetermined by the subscriber, wherein when theservice control point receives a query with said feature interactionmanager service logic program's unique subsystem number, said featureinteraction manager service logic program routes said query to one ormore of said plurality of feature service logic programs according tosaid service interaction rules.
 17. The service control point of claim16, further comprising a signal transfer point located between theservice switching point and the service control point, wherein thesignal transfer point supplements an initial query received from theservice switching point with said feature interaction manager servicelogic program's own unique subsystem number.
 18. The service controlpoint of claim 16, wherein said trigger is a termination attempttrigger.
 19. A method for managing a plurality of feature service logicprograms through a feature interaction manager located on a servicecontrol point, comprising the steps of: (a) provisioning a trigger on asubscriber's line at a service switching point; (b) receiving a queryfrom the service switching point at the service control point; (c) inresponse to the query, consulting a database containing serviceinteraction rules regarding how the services are to be invoked, whereinthe service interaction rules specifies an order in which the pluralityof feature service logic programs are to be invoked by the featureinteraction manager, wherein the order is predetermined by thesubscriber; and (d) using the feature interaction service manager tomanage the plurality of feature service logic programs according to saidservice interaction rules.
 20. The method of claim 19, furthercomprising the step of providing a signal transfer point located betweenthe service switching point and the service control point, wherein thesignal transfer point supplements an initial query received from theservice switching point with a subsystem number identifying said featureinteraction manager service logic program.
 21. The method of claim 19,wherein at least one of said plurality of feature service logic programsis installed on a first service control point and at least a second oneof said plurality of feature service logic programs is installed on asecond service control point.
 22. The method of claim 21, wherein saidfeature interaction manager is invoked such that said featureinteraction manager subsequently invokes at least one of said pluralityof feature service logic programs located on said first service controlpoint and said at least one of said plurality of feature service logicprograms installed on said second service control point, according tosaid service interaction rules in the database.
 23. The method of claim19, wherein said trigger is a termination attempt trigger having atranslation type to invoke said feature interaction manager servicelogic program.
 24. A method for managing multiple services of anadvanced intelligent network telecommunication system having a telephoneline, a service switching point, a signal transfer point, and a servicecontrol point comprising the steps of: (a) installing a featureinteraction manager service logic program on the service control point;(b) installing a first feature service logic program and a secondfeature service logic program on the service control point; (c)installing on the service control point service interaction rules forinvoking said first feature service logic program and said secondfeature service logic program, wherein the service interaction rulesspecifies an order in which the first feature service logic program andthe second feature service program are to be invoked by the featureinteraction manager service logic program, wherein the order ispredetermined by the subscriber; (d) assigning a first subsystem numberto the feature interaction manager service logic program; (e) assigninga second subsystem number to the first feature service logic programpackage and a third subsystem number to the second feature service logicprogram package; (f) provisioning a trigger on the subscriber's line atthe service switching point; (g) assigning a unique translation type tothe trigger on the subscriber's line; (h) upon receiving a query at thesignal transfer point from the service switching point containing theunique translation type, supplementing said query with the firstsubsystem number and sending said supplemented query to the servicecontrol point; (i) upon receiving said supplemented query at the servicecontrol point containing the first subsystem number, invoking thefeature interaction manager service logic program; and (j) managing, inthe feature interaction manager, said first and second feature servicelogic programs according to said service interaction rules.
 25. Themethod of claim 24, wherein said trigger is a termination attempttrigger.
 26. The method of claim 24, wherein the first and the secondfeature service logic programs are two services selected from the groupconsisting of flexible call forwarding, Internet call waiting, privacydirector, advanced intelligent messaging, and simultaneous ringing. 27.The method of claim 24, further comprising the step of installing asecond service control point, wherein at least one additional featureservice logic program is installed on said second service control point.28. The method of claim 27, wherein said feature interaction managerservice logic program is invoked such that it subsequently invokes atleast one of the first feature service logic program, the second featureservice logic program, and said at least one additional feature servicelogic program, according to said service interaction rules in thedatabase.
 29. The method of claim 24, further comprising the step ofinstalling a second service control point having at least one additionalfeature service logic program, wherein said feature interaction managerservice logic program invokes said at least one additional featureservice logic program via SS7 network according to said serviceinteraction rules in the database.
 30. The method of claim 29, whereinthe first, the second, and said at least one additional feature servicelogic programs are selected from the group consisting of flexible callforwarding, Internet call waiting, privacy director, advancedintelligent messaging, and simultaneous ringing.
 31. The method of claim29, wherein the feature interaction manager service logic program isinvoked such that it subsequently invokes at least one of the first andthe second feature service packaging applications on the first servicecontrol point and said at least one additional feature service logicprogram on said second service control point as specified in the serviceinteraction rules.
 32. The method of claim 24, wherein said featureinteraction manager service logic program returns a default response tothe service switching point as specified in the service interactionrules when none of said first and second feature service logic programshas been activated.
 33. The method of claim 32, wherein said defaultresponse is an instruction authorizing call termination.
 34. An advancedintelligent network telecommunication system comprising: (a) a telephoneline associated with a subscriber; (b) a service switching point that isconnected to the telephone line; (c) a trigger having a uniquetranslation type provisioned on the subscriber's line at the serviceswitching point; (d) a service control point in communication with theservice switching point; (e) a feature interaction manager service logicprogram installed on the service control point having a first subsystemnumber; (f) a first feature service logic program having a secondsubsystem number and a second feature service logic program having athird subsystem number; and (g) means for managing said first featureservice logic program and said first feature service logic programaccording to a set of service interaction rules, wherein the serviceinteraction rules specifies an order in which the first feature servicelogic program and the second feature service program are to be invokedby the feature interaction manager service logic program, wherein theorder is predetermined by the subscriber.
 35. The advanced intelligentnetwork telecommunication system of claim 34, further comprising asignal transfer point located between the service switching point andthe service control point, wherein the signal transfer point supplementsan initial query received from the service switching point with saidfirst subsystem number.
 36. The advanced intelligent networktelecommunication system of claim 34, wherein said trigger is atermination attempt trigger.
 37. The advanced intelligent networktelecommunication system of claim 34, wherein the first and the secondfeature service logic programs are two services selected from the groupconsisting of flexible call forwarding, Internet call waiting, privacydirector, advanced intelligent messaging, and simultaneous ringing. 38.The advanced intelligent network telecommunication system of claim 34,further comprising a second service control point, wherein at least oneadditional feature service logic program is installed on said secondservice control point.
 39. The advanced intelligent networktelecommunication system of claim 38, wherein said feature interactionmanager service logic program is invoked such that it subsequentlyinvokes at least one of the first feature service logic program, thesecond feature service logic program, and said at least one additionalfeature service logic program according to said service interactionrules in the database.
 40. The advanced intelligent networktelecommunication system of claim 39, wherein the first, the second, andsaid at least one additional feature service logic programs are servicesselected from the group consisting of flexible call forwarding, Internetcall waiting, privacy director, advanced intelligent messaging, andsimultaneous ringing.
 41. The advanced intelligent networktelecommunication system of claim 34, further comprising a secondservice control point having at least one additional feature servicelogic program, wherein said feature interaction manager service logicprogram invokes said at least one additional feature service logicprogram via SS7 network according to said service interaction rules inthe database.
 42. The advanced intelligent network telecommunicationsystem of claim 41, wherein the first, the second, and said at least oneadditional feature service logic programs are selected from the groupconsisting of flexible call forwarding, Internet call waiting, privacydirector, advanced intelligent messaging, and simultaneous ringing. 43.A method for managing multiple services of an advanced intelligentnetwork telecommunication system having a telephone line associated witha subscriber, a service switching point, and a signal transfer point,comprising the steps of: (a) installing a feature interaction managerservice logic program on a first service control point; (b) installing afirst feature service logic program on said first service control point;(c) installing a second feature service logic program on a secondservice control point; (d) installing on said first service controlpoint service interaction rules for invoking said first feature servicelogic program and said second feature service logic program, wherein theservice interaction rules specifies an order in which the first featureservice logic program and the second feature service program are to beinvoked by the feature interaction manager service logic program,wherein the order is predetermined by the subscriber; (e) assigning afirst subsystem number to the feature interaction manager service logicprogram; (f) assigning a first unique subsystem number to the firstfeature service logic program package and a second unique subsystemnumber to the second feature service logic program package; (g)provisioning a trigger on the subscriber's line at the service switchingpoint; (h) assigning a unique translation type to the trigger on thesubscriber's line; (i) upon receiving a query at the signal transferpoint from the service switching point containing the unique translationtype, supplementing said query with the first subsystem number andsending said supplemented query to said first service control point; (j)upon receiving said supplemented query at said first service controlpoint containing the first subsystem number, invoking the featureinteraction manager service logic program; and (k) managing, in thefeature interaction manager, said first and second feature service logicprograms according to said service interaction rules.
 44. The method ofclaim 43, wherein said trigger is a termination attempt trigger.
 45. Themethod of claim 43, wherein the first and the second feature servicelogic programs are selected from the group consisting of flexible callforwarding, Internet call waiting, privacy director, advancedintelligent messaging, and simultaneous ringing.
 46. The method of claim43, wherein said feature interaction manager service logic programreturns a default response to the service switching point as specifiedin the service interaction rules when none of said first and secondfeature service logic programs has been activated.
 47. The method ofclaim 46, wherein said default response is an instruction authorizingcall termination.
 48. An advanced intelligent network telecommunicationsystem comprising: (a) at least one service switching point associatedwith a telephone line of a subscriber; (b) a first service control pointin communication with the at least one service switching point; (c) atrigger with a translation type provisioned on the subscriber'stelephone line at the service switching point; (d) a feature interactionmanager service logic program, located on the first service controlpoint; (e) a first feature service logic program on a second servicecontrol point; (f) a second feature service logic program on one of athird service control point and the second service control point; and(g) a database accessible to the service control point, wherein thedatabase comprises service interaction rules, wherein the serviceinteraction rules specifies an order in which the first feature servicelogic program and the second feature service program are to be invokedby the feature interaction manager service logic program, wherein theorder is predetermined by the subscriber, wherein when said triggerprompts said at least one service switching point to send a querycontaining said translation type to the first service control point,said feature interaction manager service logic program is invoked and inturn subsequently invokes at least one of said first feature servicelogic program and said second feature service logic program, accordingto said service interaction rules in the database.